Abstract
Resistant nematodes are not affected by the most common drugs commercially available. In the search for new anthelmintics, peptides have been investigated. Here, a linear synthetic peptide named RcAlb-PepIII bioinspired from the antimicrobial protein Rc-2S-Alb was designed, synthesized, and tested against barber pole worm Haemonchus contortus. The physicochemical properties of the peptide, the 3D structure model, the egg hatch inhibition, and larval development inhibition of H. contortus were carried out. Additionally, the ultrastructure of the nematode after treatment with the peptide was evaluated by atomic force microscopy. The RcAlb-PepIII inhibited the larval development of H. contortus with an EC50 of 90 µM and did not affect egg hatch. Atomic force microscopy reveals the high affinity of RcAlb-PepIII with the cuticle of H. contortus in the L2 stage. It also shows the deposition of RcAlb-PepIII onto the surface of the cuticle, forming a structure similar to a film that reduces the roughness and mean square roughness (Rq) of it. In conclusion, the bioinspired RcAlb-PepIII has the potential to be used as a new anthelmintic compound to control gastrointestinal nematode parasites.
Highlights
Infection caused by multi-drug resistant nematodes in ruminants led to a negative impact on livestock production and significant economic losses worldwide [1,2]
RcAlb-PepIII was described as an anthelmintic peptide
Some of the physicochemical and biological properties of RcAlb-PepIII were compared with Kalata b1, which is a well-known anthelmintic peptide [11]
Summary
Infection caused by multi-drug resistant nematodes in ruminants led to a negative impact on livestock production and significant economic losses worldwide [1,2] Parasite resistance has shown a rapid increase in the last years caused by the misuse or overuse of the conventional antiparasitic drugs, leading to ineffective treatments [3]. H. contortus is a hematophagous gastrointestinal nematode from a ruminant abomasum with the highest impact on livestock production. Several studies have reported multi-drug H. contortus resistance on strains of small ruminants’ farms from all continents worldwide [4,5,6]. The development of new safe and efficient drugs to treat these infections is urgent
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